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1.
Artigo em Chinês | WPRIM | ID: wpr-1028728

RESUMO

AIM To prepare the nanosuspensions of naringenin phospholipids complex,and to investigate their in vivo pharmacokinetics.METHODS High-pressure homogenization method was applied to preparing the nanosuspensions of phospholipids complex.With stabilizer type,stabilizer-phospholipids complex consumption ratio,homogeneous pressure and homogeneous frequency as influencing factors,particle size,PDI and Zeta potential as evaluation indices,the formulation was optimized by single factor test.The morphology was observed under transmission electron microscope,after which X-ray powder diffraction analysis was performed,solubility,oil-water partition coefficient,dissociation rate of phospholipids complex and accumulative release rate were determined.Twenty-four rats were randomly assigned into four groups and given intragastric administration of the 0.5%CMC-Na suspensions of naringenin and its phospholipids complex,nanosuspensions and nanosuspensions of phospholipids complex(30 mg/kg),respectively,after which blood collection was made at 0,0.25,0.5,1,1.5,2,3,4,5,6,8,10,12 h,HPLC was adopted in the plasma concentration determination of naringenin,and main pharmacokinetic parameters were calculated.RESULTS The optimal formulation was determined to be 50 mg for naringenin consumption,PVP K30+TPGS(1 ∶ 1)as stabilizer,3 ∶ 1 for stabilizer-phospholipids complex consumption ratio,100 MPa for homogeneous pressure,and 10 times for homogeneous frequency,respectively.The obtained spherical-like or oval nanosuspensions of phospholipids complex demonstrated the average particle size,PDI and Zeta potential of(260.53±25.86)nm,0.160±0.024 and(-31.08±1.37)mV,respectively.Naringenin existed in the nanosuspensions of phospholipids complex in an anamorphous state,along with increased solubility,oil-water partition coefficient and dissociation rate of phospholipids complex,and the accumulative release rate reached more than 90%within 4 h.Compared with raw medicine and nanosuspensions,the nanosuspensions of phospholipids complex displayed shortened tmax(P<0.05)and increased Cmax,AUC0-t,AUC0-∞(P<0.05,P<0.01),the relative bioavailability was enhanced to 4.38 times.CONCLUSION The nanosuspensions of phospholipids can enhance naringenin's solubility and dissolution rate,and promote its in vivo absorption.

2.
Chinese Traditional Patent Medicine ; (12): 3872-3878, 2023.
Artigo em Chinês | WPRIM | ID: wpr-1028700

RESUMO

AIM To prepare cucurbitacin B nanosuspensions,and to investigate their in vivo pharmacokinetics.METHODS The nanosuspensions were prepared by high-pressure homogenization method.With stabilizer type,stabilizer-drug ratio and homogeneous frequency as influencing factors,particle size and PDI as evaluation indices,the formulation was optimized by single factor test,after which the solubility and stability were determined,and crystalline form analysis was performed.Eighteen rats were randomly assigned into three groups and given intragastric administration of the 0.5%CMC-Na suspensions of cucurbitacin B,physical mixture and cucurbitacin B nanosuspensions(10 mg/kg),respectively,after which blood collection was made at 0.5,1,2,3,4,8,10,12 h,UPLC-MS/MS was adopted in the plasma concentration determination of cucurbitacin B,and main pharmacokinetic parameters were calculated.RESULTS The optimal formulation was hydroxypropyl cellulose+sodium dodecyl sulfate(1 ∶ 1)as stabilizer,3 ∶ 1 for stabilizer-drug ratio,80 MPa for homogeneous pressure,and 12 times for homogeneous frequency,the average particle size,PDI and Zeta potential were 200 nm,0.140 and-32 mV,respectively.The nanosuspensions demonstrated obviously higher solubility than that of raw medicine and physical mixture,along with good stability within 6 months.Cucurbitacin B existed in the nanosuspensions in an amorphous state.Compared with raw medicine and physical mixture,the nanosuspensions displayed shortened tmax(P<0.01),prolonged t1/2(P<0.05,P<0.01),and increased Cmax,AUC0-t,AUC0-∞(P<0.01),whose relative bioavailability was enhanced to 4.32 times as compared with that of raw medicine.CONCLUSION Nanosuspensions can improve the dissolution rate and oral bioavailability of cucurbitacin B.

3.
China Pharmacy ; (12): 1704-1710, 2020.
Artigo em Chinês | WPRIM | ID: wpr-823047

RESUMO

OBJECTIVE:To optimize the p reparation technology of citronellol submicroemulsion. METHODS :The content of citronellol in Citronellol submicroemulsion was determined by HPLC. Citronellol submicroemulsion by high-speed shearing dispersion-high pressure homogenization method ,with centrifugation stability constant (ke) and particle size were used as evaluation indexes. Its formulation and preparation technology were optimized and validated. Drug-loading amount and encapsulation rate of the preparation were detected. RESULTS :The linear range of citronellol were 4-64 μg/mL(R 2=0.999 9). RSDs of precision ,stability(24 h)and reproducibility tests were all lower than 3%. The recoveries were 97.64%-101.97%(RSD= 2.28%,n=3),97.71%-99.50%(RSD=1.29%,n=3),96.87%-101.48%(RSD=2.86%,n=3). The optimal formulation included that total weight of soybean oil and medium chain triglycerides (1 ∶ 1,g/g)was 3.75 g,1.2% soybean phospholipid was 0.6 g, cholesterol was 0.06 g,citronellol was 1.25 g,0.6 % sodium oleate was 0.3 g,15-hydroxystearic acid polyethylene glycol ester was 0.75 g,poloxamer 188 was 0.75 g,water added to 50 mL. After prepared by optimal technology at 4 ℃ which contained shearing speed of 13 000 r/min,lasting for 5 min, primary emulsion was adjusted to pH 7 with dilute hydro- chloric acid ,and homogenized with 600 Bar high pressure for 1434412440@qq.com 5 min. The parameters of Citronellol submicroemulsion accor- ding to optimal formulation and technology contained mean particle size of (91.05±0.26)nm,PDI of (0.20±0.01), Zeta-potential of (-30.86±0.39)mV,average content of 649511230@qq.com citronellol(100.21±0.01)%,the drug-loading amount was (2.481 7 ± 0.000 7) mg/mL,the encapsulation rate was (99.27 ± 0.03)% . CONCLUSIONS :The optimal formulation and technology is stable and feasible.

4.
Zhongcaoyao ; Zhongcaoyao;(24): 5128-5136, 2020.
Artigo em Chinês | WPRIM | ID: wpr-846102

RESUMO

Objective: To prepare the rhynchophylline nanosuspensions and lyophilized powder, and study its sustained-release tablets. Methods: Rhynchophylline nanosuspensions were prepared by microprecipitation combined with high pressure homogenization method, and the particle size and zeta potential were determined. Scanning electron microscopy (SEM) was employed to observe the appearances of nanosuspensions. Nanosuspensions were prepared into lyophilized powder using lactose as freeze-dried protectors. HPMC (hydroxypropyl methyl cellulose) was used as hydrophilic matrix to prepare the sustained-release tablets. Single factor investigation and orthogonal experiments were employed to optimize the formulation of rhynchophylline nanosuspensions sustained-release tablets, and the model fitting was also been studied. Results: The particle size and zeta potential of rhynchophylline nanosuspensions were (153.7 ± 4.9) nm and (-18.54 ± 1.32) mV, respectively. The appearances of rhynchophylline nanosuspensions were spherical or nearly spherical. After orthogonal optimization, the cumulative release rate of rhynchophylline nanosuspensions sustained-release tablets was 92.53% in 12 h. The optimized formulation of hydrogel matrix sustained-release tablets was better accorded with Higuchi model: ln(1-Mt/M∞)=0.286 0 t1/2-0.069 0 (r=0.992 4). The drug release from hydrogel matrix sustained-release tablets were controlled by diffusion and degradation. Conclusion: The obtained rhynchophylline nanosuspensions has small particle size. The prepared hydrogel matrix sustained-release tablets can control the release of rhynchophylline nanosuspensions in a slow characteristic.

5.
Zhongcaoyao ; Zhongcaoyao;(24): 4442-4448, 2020.
Artigo em Chinês | WPRIM | ID: wpr-846202

RESUMO

Objective: To prepare magnolol solid dispersions (Mag-SD), magnolol phospholipids complex (Mag-PC) and magnolol solid lipid nanoparticles (Mag-SLN), and compare their effects on the pharmacokinetics in vivo. Methods: Solvent evaporation method was used to prepare Mag-SD and Mag-PC. Their existential state of Mag in Mag-SD and Mag-PC were analyzed by X-ray power diffraction (XRPD). High pressure homogenization method was employed to prepare Mag-SLN, its particle size and Zeta potential were also studied. The dissolution in vitro of Mag-SD, Mag-PC and Mag-SLN were also studied compared to magnolol suspension. SD rats in each group were administered intragastrically with magnolol, Mag-SD, Mag-PC and Mag-SLN, respectively. The concentration of magnolol in blood was analyzed by HPLC, and the main pharmacokinetic parameters were obtained. The pharmacokinetic behavior and bioavailability of magnolol, Mag-SD, Mag-PC and Mag-SLN were also compared. Results: The results of XRPD indicated that magnolol showed an amorphous state in Mag-SD and Mag-PC. The average particle size and Zeta potential of Mag-SLN was (161.37 ± 3.77) nm and (-29.16 ± 1.83) mV, respectively. The results of dissolution in vitro indicated that the cumulative dissolution of magnolol was 30.6% within 12 h. Mag-SD, Mag-PC and Mag-SLN enhanced its cumulative dissolution to 96.3%, 76.4% and 45.9%, respectively. The results of pharmacokinetics in vivo showed that Cmax, AUC0-t and AUC0-∞ of Mag-SD, Mag-PC and Mag-SLN were enhanced greatly compared to magnolol suspension. Mag-PC, Mag-SD and Mag-SLN increased its Cmax from (429.67 ± 53.12) ng/mL to (533.62 ± 59.01), (721.73 ± 103.44) and (1 063.21 ± 108.22) ng/mL, respectively. The bioavailability of Mag-SD, Mag-PC and Mag-SLN were enhanced to 1.38, 2.12 and 3.45 times, respectively. Conclusion: Mag-SD, Mag-PC and Mag-SLN could promote the absorption of magnolol in SD rats notably. In addition, Mag-SLN could give a better effect on the bioavailability.

6.
Zhongcaoyao ; Zhongcaoyao;(24): 4060-4067, 2019.
Artigo em Chinês | WPRIM | ID: wpr-850875

RESUMO

Objective: To prepare dihydromyricetin (DMY) phospholipids complex (DMY-PC) and its nanostructured lipid carriers (DMY-PC-NLC), and carry out in vitro and in vivo evaluation. Methods: DMY-PC was prepared by solvent evaporation method. High pressure homogenization method was used to prepare DMY-PC-NLC. Orthogonal test was employed to optimize the ratio of solid/liquid lipid, dose of lipids materials, dose of DMY-PC and the concentration of emulsifier of poloxamer. The lyophilized powder of DMY-PC-NLC was prepared with 5% of mannitol as protective agent. The comparation of in vitro release and pharmacokinetics between DMY-PC and DMY-PC-NLC was also studied. Results: DMY was in an amorphous state in DMY-PC. The results of 1HNMR showed that the structure of DMY was not changed. The optimized prescription of DMY-PC-NLC determined by orthogonal test was as follow: The ratio of solid/liquid lipid was 5:1, dose of lipids materials was 325 mg, dose of DMY-PC was 45 mg and the concentration of emulsifier of poloxamer was 0.9%. The average size, Zeta potential, entrapment efficiency and drug loading of DMY- PC-NLC was (197.25 ± 4.42) nm, (-18.2 ± 2.1) mV, (71.68 ± 1.36)% and (3.94 ± 0.24)%, respectively. The in vitro release model was accord with Weibull model and the equation was lnln(1-Mt/M∞)=0.700 1 lnt-1.954 1 (r = 0.971 4). The relative bioavailability of DMY-PC and DMY-PC-NLC were enhanced to 1.63 and 3.22 times compared to DMY, respectively. Conclusion: Compared with DMY-PC, the absorption was promoted by DMY-PC-NLC in further, and the bioavailability of DMY was enhanced effectively.

7.
China Pharmacist ; (12): 792-796, 2018.
Artigo em Chinês | WPRIM | ID: wpr-705594

RESUMO

Objective:To prepare solid lipid nanoparticles of etoposide and evaluate the inhibitory rate against Lewis lung cancer cells in mice. Methods:Etoposide-loaded solid lipid nanoparticles were prepared by a hot melting emulsification and high pressure homogenization method. The physicochemical properties such as the appearance, microstructure, particle size distribution and zeta potential of the solid lipid nanoparticles were studied. The in vitro release behavior of the solid lipid nanoparticles were evaluated. The inhibitory effect of etoposide-loaded solid lipid nanoparticles and etoposide injection on Lewis lung cancer cells was compared. Results:Etoposide-loaded solid lipid nanoparticles showed a light blue transparent liquid,which was uniformly spherical under the transmission electron microscope. The average particle size was (153.2 ± 32.8) nm, PdI was (0.185 ± 0.031),and the zeta potential was(-17.4 ± 1.1) mV. The solid lipid nanoparticles could delay the drug release and 52.4% of the drug was released in 24 h. Etoposide-loaded solid lipid nanoparticles could significantly inhibit the growth of Lewis lung cancer cells in mice. And the inhibitory rate of the solid lipid nanoparticles was significantly higher than that of etoposide injection (P < 0.05). Conclusion:The solid lipid nanoparticles prepared by hot melting emulsification and high pressure homogenization method have good antitumor effect on Lewis lung cancer cells,which can be used as a new drug delivery system for etoposide with certain application prospect in lung cancer treatment.

8.
Chinese Traditional Patent Medicine ; (12): 2279-2284, 2017.
Artigo em Chinês | WPRIM | ID: wpr-668883

RESUMO

AIM To prepare nanosuspensions of flavonoids from Glycyrrhizae Radix et Rhizoma and to determine the in vitro dissolution rate.METHODS Precipitation-high pressure homogenization method was adopted in the preparation of nanosuspensions.With mean particle size and polydispersity index (PDI) as evaluation indices,concentrations of flavonoids,povidone K30 (PVP K30) and polyethylene glycol 400 (PEG 400) as influencing factors,central composite design-response surface method was applied to optimizing the preparation.For the freedried powder prepared by freeze-drying method,the optimal kind and ratio of lyoprotectant were screened.Then the in vitro dissolution rates of freeze-dried powder and physical mixture were compared.RESULTS The optimal conditions were determined to be 10.00 mg/mL for flavonoids' concentration,and 2.30 mg/mL for both PVP K30 and PEG 400 concentrations,the mean particle size and PDI were (172.3 ± 1.2) nm and 0.175 ± 0.004,respectively.The optimal lyoprotectant was 5% mannitol-lactose (3 ∶ 2),the mean particle size and PDI after redissolution were (239.7 ±2.1) nm and 0.193 ±0.032,respectively.The in vitro dissolution rate of lyoprotectant reached 87.7% within 60 min,which was much higher than that of physical mixture (less than 30%).CONCLUSION Nanosuspension can effectively improve the in vitro dissolution rate of flavonoids from Glycyrrhizae Radix et Rhizoma.

9.
China Pharmacist ; (12): 258-261, 2016.
Artigo em Chinês | WPRIM | ID: wpr-486987

RESUMO

Objective:To prepare celecoxib nanosuspension ( CXB-NSs) and study the pharmacokinetics of CXB-NSs in rats. Methods:CXB-NSs were prepared by an anti-solvent precipitation and high pressure homogenization method. The particle size, polydispersion index ( PdI) and zeta potential of the nanosuspension were studied. Totally 12 Wistar rats were randomly divided into CXB-NSs group and CXB suspension group, and gastric drug dose was 100 mg·kg-1 . CXB concentration in plasma was determined by HPLC and the pharmacokinetic parameters were calculated by 3P97 software. Results: The particle size, polydispersion index, zeta potential of CXB-NSs was (442. 5 ± 61. 9) nm, 0. 312 ± 0. 057 and ( -31. 6 ± 3. 9) mV, respectively. AUC (0-t) of CXB suspension and CXB-NSs was (5.13 ±0.77) and (13.51 ±3.18) mg·L-1·h, half time (t1/2) was (12.31 ±1.91) and (12.73 ±1.83) h, Tmax was (2. 48 ± 0. 37) and (1. 41 ± 0. 27) h and Cmax was (0. 94 ± 0. 31) and (2. 38 ± 0. 25) mg·L-1 , respectively. Conclusion:CXB-NSs can remarkably increase bioavailability in rats.

10.
Artigo em Chinês | WPRIM | ID: wpr-811867

RESUMO

@#The aim of this study was to prepare and characterise docetaxel lipid emulsion injection and to conduct the characterization of its pharmacokinetics in rats after tail-vein injection. High pressure homogenization method was used to prepare docetaxel lipid emulsion. 12 Wistar rats were randomly divided into docetaxel lipid emulsion injection group and docetaxel injection group, and dosed at 6 mg/kg through tail-vein injection. Docetaxel concentration in plasma was determined by HPLC. The pharmacokinetic parameters of docetaxel in rats were obtained using the 3P97 program. Particle size, polydispersion index, Zeta potential of docetaxel lipid emulsion were found to be(221. 6±13. 4)nm, (0. 092±0. 003)and -30. 3 mV, respectively. t1/2(α) of docetaxel lipid emulsion injection and docetaxel injection were(0. 072±0. 014)and(0. 066±0. 015)h; t1/2(β) were(0. 573±0. 253)and(0. 432±0. 184)h; AUC0-12 h were(7. 98±1. 25)and(6. 26±1. 83)μg ·h/mL, respectively. Docetaxel lipid emulsion injection had similar pharmacokinetic characteristics to docetaxel injection. The pharmacokinetic data obtained for both preparations fitted a two-compartment model.

11.
China Pharmacist ; (12): 23-26,27, 2015.
Artigo em Chinês | WPRIM | ID: wpr-600713

RESUMO

Objective:To prepare nevirapine nanosuspensions ( Nev-NS) and study the pharmacokinetics in rats. Methods:Nev-NS was prepared by a high pressure homogenization technology. The particle size, PDI and Zeta potential of the nanosuspensions were used as the indices to determine the influencing factors in the preparation process. Nevirapine plasma concentration was detected by HPLC and the pharmacokinetic parameters were calculated by 3P97 software. Results: The particle size, PDI and Zeta potential of Nev-NS was (456. 1 ± 72. 1) nm, 0. 441 ± 0. 072 and ( -24. 4 ± 4. 7) mV, respectively. AUC0-12 of Nev and Nev-NS was (7. 57 ± 0.52) and (11.72 ±1.83) mg·h·L-1, t1/2 was (2.45 ±0.31) and (3.16 ±0.39) h, Tmax was (1.43 ±0.38) and (1.61 ± 0. 32) h and Cmax was (1. 62 ± 0. 42) and (3. 15 ± 0. 52) mg·L-1 , respectively. Conclusion:Nev-NS can improve the pharmacoki-netic behavior of Nev in rats significantly, and obviously enhance the bioavailability when compared with nevirapine suspensions.

12.
China Pharmacist ; (12): 414-419, 2015.
Artigo em Chinês | WPRIM | ID: wpr-669683

RESUMO

Objective:To prepare resveratrol microemulsions by high pressure homogenization method and characterize the microe-mulsions. Methods:Using the particle size, polydispersion index and encapsulation efficiency as the indicators, the independent varia-bles of the preparation were inspected, and the microemulsions were characterized. The stability of resveratrol microemulsions was stud-ied by long term stability test preliminarily. Results:The mean particle size, polydispersion index and zeta potential of resveratrol mi-croemulsions was (231 ± 37. 8) nm, 0. 228 ± 0. 047 and ( -42. 5 ± 4. 3) mV, respectively. The microemulsions were found to be small and spherical with smooth surface under a transmission electron microscope. Long term stability studies showed that the microe-mulsions were stable in 3 months after stored at 25℃. Conclusion:The preparation process of high pressure homogenization method for resveratrol microemulsions is simple and feasible.

13.
Chinese Pharmaceutical Journal ; (24): 2026-2033, 2014.
Artigo em Chinês | WPRIM | ID: wpr-860136

RESUMO

OBJECTIVE: To prepare ZL-004 loaded PLGA nanoparticles (ZL-004-NP) and evaluate its release characteristics in vitro and pharmacokinetics in rats. METHODS: In order to determine physico-chemical property of ZL-004, saturation-constant temperature method, potentiometric method and shake flask method were employed to obtain relative parameters, respectively. After investigating single factors, the orthogonal design was used to gain optimal formulation. Then characteristic of ZL-004-NP prepared under condition of best formulation was determined by scanning electronmicroscopy, laser particle size analyzer, dialysis method, respectively. Afterward, amounts of ZL-004 in plasma were determined under UPLC-MS/MS and relative bioavailability between ZL-004-NP and its raw material was calculated. RESULTS: The feature of ZL-004-NP met aim of experiment, which contained smooth spheres, 121.34 nm of diameter, 0.16 of PDI, 89.63% of encapsulation efficiency, 7.65% of loading drug content, sustained release about 216 h in vitro and less burst in initiate stage. In vivo, cmax of ZL-004-NP was increased robustly 1.7 times, which reached to 125 μg · L-1 and tmax was cut down rapidly from (6.47 ± 0.51) h to (4.13 ± 0.48) h, compared with crude ZL-004. Relative bioavailability between ZL-004-NP and crude ZL-004 was 200.99%, which greatly improved effect of oral absorption. CONCLUSION: ZL-004-NP might be developed to improve water-insolube nature of ZL-004, which could increase oral relative bioavailability.

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